Overview
The ADC12D1600RFIUT/NOPB from Texas Instruments is a high-performance Analog to Digital Converter (ADC) designed to meet the rigorous demands of modern digital signal processing applications. This 12-bit ADC combines exceptional speed, accuracy, and versatility, making it an ideal choice for various high-speed applications such as telecommunications, instrumentation, and data acquisition systems. With a sampling rate of up to 1.6 GSPS (Giga Samples Per Second) per channel, or a combined 3.2 GSPS in interleaved mode, this ADC is capable of capturing transient signals with high fidelity.
Key Specifications
| Specification | Value |
|---|---|
| Resolution | 12 Bits |
| Sampling Rate | Up to 1.6 GSPS per channel, 3.2 GSPS interleaved |
| Input Configuration | Differential and single-ended modes |
| Package | 292-ball BGA (NXA) |
| Operating Temperature Range | -40°C to 85°C |
| Power Consumption | 3.94 W / 3.42 W (Typical) |
| Power per Channel | 1.97 W / 1.71 W (Typical) |
| ENOB (Effective Number of Bits) | 9.2 / 9.4 Bits (Typical) |
| SNR (Signal to Noise Ratio) | 58.2 / 58.8 dB (Typical) |
| SFDR (Spurious Free Dynamic Range) | 66.7 / 71.9 dBc (Typical) |
| IMD3 (Intermodulation Distortion) | 63.7 / 73 dBFS, 66.7 / 85 dBFS (Typical) |
| Noise Floor | 154.6 / 154 dBm/Hz (Typical) |
Key Features
- Excellent noise and linearity performance up to and above 2.7 GHz input frequencies.
- Configurable to either 3.2 GSPS or 2 GSPS interleaved, or 1600/1000 MSPS dual ADC modes.
- Dual-channel capability for simultaneous sampling of two analog signals.
- Internally terminated, buffered, differential analog inputs.
- AutoSync feature for multi-chip synchronization.
- Interleaved timing automatic and manual skew adjust.
- Test patterns at output for system debug.
- Time stamp feature to capture external trigger.
- Programmable gain, offset, and tADAdjust feature.
- 1:1 non-demuxed or 1:2 demuxed LVDS outputs compatible with IEEE 1596.3-1996.
Applications
The ADC12D1600RFIUT/NOPB is suitable for a wide range of high-speed applications, including:
- Telecommunications: High-speed communication systems.
- Instrumentation: Sophisticated scientific instruments and data acquisition systems.
- RF Sampling: Direct sampling of input frequencies up to and above 2.7 GHz.
- High-Speed Data Acquisition: Systems requiring precise and rapid conversion of analog signals to digital data.
Q & A
- What is the resolution of the ADC12D1600RFIUT/NOPB?
The ADC12D1600RFIUT/NOPB has a 12-bit resolution. - What are the sampling rates of the ADC12D1600RFIUT/NOPB?
The ADC can sample at up to 1.6 GSPS per channel or 3.2 GSPS in interleaved mode. - What are the input configurations supported by the ADC12D1600RFIUT/NOPB?
The ADC supports differential and single-ended input modes. - What is the package type of the ADC12D1600RFIUT/NOPB?
The ADC is packaged in a 292-ball BGA (NXA) package. - What is the operating temperature range of the ADC12D1600RFIUT/NOPB?
The operating temperature range is -40°C to 85°C. - Does the ADC12D1600RFIUT/NOPB support multi-chip synchronization?
Yes, it features an AutoSync mode for multi-chip synchronization. - What are the power consumption characteristics of the ADC12D1600RFIUT/NOPB?
The typical power consumption is 3.94 W / 3.42 W, with 1.97 W / 1.71 W per channel. - What are some key features of the LVDS outputs of the ADC12D1600RFIUT/NOPB?
The LVDS outputs are 1:1 non-demuxed or 1:2 demuxed and are compatible with IEEE 1596.3-1996. - Does the ADC12D1600RFIUT/NOPB have built-in test patterns for system debug?
Yes, it provides test patterns at the output for system debug. - Can the gain and offset of the ADC12D1600RFIUT/NOPB be programmed?
Yes, the ADC supports programmable gain, offset, and tADAdjust features.
